Litcius/Paper detail

Behavior-dependent critical dynamics in collective states of active particles

Robert C. Löffler, Tobias Bäuerle, Mehran Kardar, Christian M. Rohwer, Clemens Bechinger

2021Europhysics Letters (EPL)15 citationsDOIOpen Access PDF

Abstract

Abstract We experimentally demonstrate critical collective behavior in a system of active colloidal particles (APs), achieved through variations of their mutual interactions using feedback control. At the transition between a swarm and a swirl we observe an explicit bifurcation dynamics of the rotational order parameter and a critical slowing down, i.e. , a growth of the relaxation time by almost one order of magnitude. Additional signatures of critical dynamics, including hysteresis in presence of symmetry-breaking particle interactions, and a maximum of the susceptibility, are measured and characterized in terms of a theoretical model which is based purely on the time-reversal symmetry of the order parameter.

Topics & Concepts

Symmetry breakingBifurcationDynamics (music)Statistical physicsPhysicsHysteresisCollective behaviorSymmetry (geometry)Relaxation (psychology)Order (exchange)Condensed matter physicsClassical mechanicsNonlinear systemMathematicsQuantum mechanicsGeometrySocial psychologyPsychologyEconomicsAnthropologySociologyAcousticsFinanceMicro and Nano RoboticsAdvanced Thermodynamics and Statistical MechanicsEcosystem dynamics and resilience